期刊
AGRICULTURAL SYSTEMS
卷 194, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.agsy.2021.103264
关键词
Future soybean and grain production; Land use suitability; Transportation modeling; Data Envelopment Analysis; Food supply chain logistics; Transportation infrastructure
资金
- Sao Paulo Research Foundation (FAPESP) [2018/24353-3, 2018/20436-1, 2017/50420-7]
- Belmont Forum
The study aimed to develop a modeling framework to determine the optimal spatial distribution of new soybean and corn production areas in Brazil, as well as the transport flows required to maximize economic gains and limit negative environmental impacts.
CONTEXT: Given the need to expand food production to satisfy an increasing world population; regional land-use planners must direct this expansion to available, permitted areas (i.e., not legally protected forests) where production can be maximized and transportation costs, production costs and environmental impacts can be minimized. In this balancing act, the capabilities and layout of the current and future transport system are crucial in determining the spatial distribution of future agricultural production. OBJECTIVE: The objective of the present study was to develop a modeling framework to determine the optimal spatial distribution of new soybean and corn production areas in Brazil and transport flows needed to move these commodities to maximize economic gains and limit or reduce negative environmental impacts. METHODS: Initially, we applied Data Envelopment Analysis (DEA) to classify regions suitable for expanding soybean and corn production according to an area's potential for superior agricultural performance. Subse-quently, we used a Network Equilibrium Model (NEM) to determine the best spatial distribution of new soybean and corn production areas so that their production added to existing production meets the estimated 2050 demand and the optimal configuration of existing and proposed transportation infrastructure required to move this production to appropriate locations. RESULTS AND CONCLUSIONS: When compared to a 2018 baseline, the complete operation of planned railroads and the positioning of future grain production to occupy regions indicated by the modeling could increase soybean and corn production by 66% without simultaneous deforestation, reduce carbon dioxide emissions due to interregional soybean and corn transport by about 14%, and reduce combined transport and production costs by about 2%. SIGNIFICANCE: The proposed modeling framework should be an extremely useful tool when determining sites for future agriculture production and the network matrix needed to transport this production, especially when considering the relationship between land use and transportation infrastructure.
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